KR100536991B1 - Handoff processing method in mobile communication - Google Patents

Abstract

The present invention relates to a handoff processing method in a mobile communication system.

According to the present invention, when a handoff operation of a terminal receives a message indicating that the base station controller is ready for forward packet data transmission from the new base station, the base station controller receives a message indicating that the terminal and the service are suspended from the existing base station in service. Up to now, transmitting data to all base stations that overlap and maintain the link; And using the RLP data values transmitted to the existing base station and the new base station, checking untransmitted data and transmitting data to the new base station or continuously transmitting data to the existing base station. do.

Therefore, in the handoff operation of a terminal in a mobile communication system, the base station controller in the system informs that the new base station is ready for forward packet data transmission with the terminal and transmits forward packet data with the terminal from the existing base station. By preventing data loss due to a difference between time points for receiving a message indicating that the message has been stopped, there is an effect of improving the data throughput and packet data service quality of the terminal.

Description

HANDOFF PROCESSING METHOD IN MOBILE COMMUNICATION}

The present invention relates to a mobile communication system, and in particular, during a handoff operation of a terminal in the mobile communication system, the base station controller in the system informs that the new base station is ready for forward packet data transmission with the terminal and from the existing base station. The present invention relates to a handoff processing method in a mobile communication system which prevents data loss due to a difference between a terminal and a time point for receiving a message indicating that transmission of forward packet data is stopped.

1 is a block diagram showing the configuration of a mobile communication system during a handoff operation of a conventional terminal. As shown in FIG. 1, the terminal 10, the base stations 11 and 12, and the base station controller 13 are constructed.

As an example, a 1x EV (EV) -DO (Data Only) system, which is a next-generation mobile communication system, is a system that supports high-speed packet data transmission. The data rate is variable at 2Mbps in the fixed position, and it varies from 1.25Mbps to 600kbps when the terminal moves.

In this case, the terminal may simultaneously maintain a link by adding a plurality of base stations, and may perform signal to noise ratio (SNR), that is, carrier to interference (C / I) of the pilot channels of the base stations. By measuring the data rate control (DRC) channel, the base station requests a forward data rate suitable for the channel environment.

In addition, unlike a conventional mobile communication system, in a 1x EV-DO system, a terminal is allocated only one time slot for data transmission at any one time, and only data from one base station is allocated while the time slot is allocated. The system monitors the data rate control channel of the packet call and transmits the packet data at the transmission rate required by the terminal only to the base station where the terminal can best receive the data.

Therefore, since the terminal is mobile and the area and channel environment of the base station to which the terminal belongs are changed, the system uses the information of the base station and the terminal at the time of forward packet data service, and the base station and data transmission rate to provide a service to the terminal from time to time. Change is required.

That is, when a plurality of base stations (11, 12) to maintain a link overlapping a specific terminal 11 as shown in Figure 1, when the handoff (Handoff) base station controller 13 is in service for the forward packet data service Base stations 11 and 12 are managed.

Here, the handoff function is a function of maintaining the call or data in service when the terminal 10 moves out of the current service area (area A) to another adjacent service area (area B) in the mobile communication system. Say.

Assuming that the terminal 10 moves from base station 1 (11) corresponding to the existing base station currently receiving service to base station 2 (12), which is a new base station, a handoff occurs, first, the service area of base station 1 (11). The terminal 10 located in the in-area A is forwarded with information indicating that the channel is to be opened with the base station 1 11 through the data rate control channel to the base station 1 11 that is considered to be most suitable for opening the channel. Information on the transmission rate required by the terminal 10 for packet data transmission is transmitted.

Then, since the base station 1 11 is in a state for forward packet data transmission with the corresponding terminal 10, the base station 1 11 transmits forward packet data with the corresponding terminal 10 to the base station controller 13. The base station controller 13 recognizes that the base station 1 11 is serving.

After that, the terminal 10 moves to the area B, which is the service area of the base station 2 12, and when the C / I strength of the pilot channel from the base station 2 12 is measured strongly, the data rate control channel is used. Then, the base station 2 12 transmits information indicating that the channel is to be opened to the base station 2 12 and information on a transmission rate required for data reception to the base station 2 12.

Then, the base station 2 12 is also in a state for forward packet data transmission with the corresponding terminal 10, and transmits a message (XmitOnReq) indicating that the base station controller 13 is ready for forward packet data transmission. (10) and report that it is in a state for forward packet data transmission.

At this time, since the base station 1 11 is no longer in the state for data transmission with the terminal 10, the terminal 10 stops transmitting data with the base station 1 11 through a data rate control channel. The base station 1 11 transmits a message (StopServing) to the base station controller 13 indicating that the forward packet data transmission with the terminal 10 has been stopped.

Then, the base station controller 13 receives a message (XmitOnReq) indicating that it is ready for forward packet data transmission with the terminal 10 from the other base station 2 (12), and from the currently serving base station 1 (11) Since receiving the message (StopServing) indicating that the forward packet data transmission with the terminal 10 is stopped, the base station to be serviced from the base station 1 (11) to the base station 2 (12) to the packet to the terminal 10 Continue to provide data services.

As described above, in the conventional technology, when a handoff operation of a terminal in a mobile communication system, the base station controller in the system indicates that the new base station is ready for forward packet data transmission with the corresponding terminal, and from the existing base station to the terminal. If a difference occurs between the time points at which a message indicating that forward packet data transmission is interrupted occurs, an inconsistency occurs between a new base station that the terminal wants to receive service and an existing base station in service managed by the base station controller. By transmitting data only to the existing base station and not transmitting data to the new base station during the time period, data is continuously transmitted to the terminal through the existing base station while the C / I strength of the pilot channel from the existing base station is already weakened. To Therefore receive a song, there is a problem in that the data receiving rate (throughput) is lowered on the device.

Accordingly, the present invention has been proposed to solve the above-mentioned problems, and when a handoff operation of a terminal in a mobile communication system, a new base station is ready for forward packet data transmission with the terminal in a base station controller in the system. It is an object of the present invention to provide a method for preventing data loss due to a difference between an informing time point and a time point for receiving a message informing that the forward packet data transmission is stopped from a corresponding base station.

In order to achieve the above object, the present invention, when receiving a message indicating that the base station controller is ready for forward packet data transmission from the new base station in the base station controller, the base station from the existing base station in service with the corresponding terminal; Transmitting data to all base stations that overlap and maintain the link until receiving a message indicating that the service has been suspended; And identifying data that has not been transmitted using the RLP data values transmitted to the existing base station and the new base station and transmitting the data to the new base station or continuously transmitting the data to the existing base station.

Hereinafter, an embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a flowchart illustrating an operation of a handoff processing method in a mobile communication system according to the present invention.

However, in the present invention, when the base station (11, 12) handoff occurs by moving the terminal 10 in its service area, the base station controller (13) transmits a message (StopServing) indicating that the terminal and the service is stopped. The last RLP (Radio Link Protocol) data value received from the base station controller 13 is transmitted to the message, and the base station controller 13 is ready for a new service and an existing base station currently serving the corresponding terminal 10. The RLP data value transmitted to the new base station in the state is used to identify untransmitted data and to transmit data to the new base station or to continuously transmit data to the existing base station.

The present invention can be applied to a next generation mobile communication system based on packet data, and in an embodiment of the present invention, referring to FIGS. 2 and 3 with reference to 1x EV (EVolution) -DO (Data Only) system as an example. Explain.

In addition, according to the present invention, the terminal 10 maintains the link by overlapping with the base station 1 11 and the base station 2 12, and initially the terminal 10 is connected to the service area of the base station 1 11 (area A). ), It is assumed that a handoff occurs while moving to the service area (area B) of the base station 1 (12).

In addition, the existing base station is the base station 1 (11) currently in service for the terminal 10, and the new base station is the base station 2 (12) in preparation for forward packet data transmission with the terminal 10 Suppose to say.

First, the terminal 10 located in the area A, which is a service area of the base station 1 11, if the C / I strength of the pilot channel is strongly measured from the base station 1 11, the base station 1 (eg, through the data rate control channel). 11) and information indicating that the channel is to be opened and information on the transmission rate required for data reception are transmitted to the base station 1 (11) to select the base station 1 (11) that is considered most suitable for channel opening. do.

Then, since the base station 1 11 is in a state for forward packet data transmission with the corresponding terminal 10, the base station 1 11 transmits forward packet data with the corresponding terminal 10 to the base station controller 13. The base station controller 13 recognizes that the base station 1 11 is in service and transmits a packet data to the terminal 10 through the base station 1 11. send.

After that, the terminal 10 moves to the area B, which is the service area of the base station 2 12, and when the C / I strength of the pilot channel from the base station 2 12 is measured strongly, Information indicating that the channel is to be opened with the base station 2 (12) and information on the transmission rate required for data reception are transmitted to the base station 2 (12).

As a result, a handoff of the terminal 10 occurs. Then, the base station 2 12 is in a state for forward packet data transmission with the terminal 10, and forward packet data is transmitted to the base station controller 13. By transmitting a message (XmitOnReq) indicating that the ready state for the report to the ready state for the forward packet data transmission with the terminal 10 (S20), and receives the data from the base station controller (13).

At this time, since the base station 1 11 is no longer in the state for data transmission with the terminal 10, the base station 1 11 recognizes that there is no data received from the terminal 10, and the predetermined data If not received at all, the link with the terminal 10 is disconnected, and a message (StopServing) informing that the forward packet data transmission with the terminal 10 is stopped is transmitted to the base station controller 13.

Here, until the base station controller 13 receives a message (StopServing) indicating that the service is stopped with the corresponding terminal 10 from the existing base station 11 in service (S21), the link is added to maintain the link. Transmitting data to all base stations 11 and 12 (S22), and if the message (StopServing) is received from the existing base station 11 in the step S21, to transmit the first data to the new base station 12 yet. As such, the packet data service is directly provided through the new base station 12 (S27).

Then, in step S22, the message (StopServing) indicating that the service with the corresponding terminal 10 is stopped from the existing base station 11 or the new base station 12 while transmitting data to all base stations (11, 12) Whether or not to transmit data to the new base station 12 or the existing base station 11, and accordingly, using the RLP data values transmitted to the existing base station 11 and the new base station 12. Data is transmitted to the existing base station 11 or the new base station 12.

That is, when the base station controller 13 receives the message (StopServing) from the existing base station 11 and decides to transmit the data to the new base station 12, the base station controller 13 transmits the data to the new base station 12 using the RLP data value. After checking whether data has not been transmitted, the untransmitted data is transmitted to the new base station 12 (S23, S24).

When the base station controller 13 receives the message (StopServing) from the new base station 12 and decides to transmit data to the existing base station 11, the base station controller 13 continuously transmits the data to the existing base station 11. (S25, S26).

Meanwhile, in step S22, after transmitting data to both the new base station 12 and the existing base station 11, a process of transmitting data to the new base station 12 or the existing base station 11 using the RLP data value. As shown, the base station controller 13 stores the first RLP data value transmitted to the new base station 12 (S30).

When receiving the message (StopServing) indicating that the service is stopped with the terminal 10 from the existing base station 11 (S31), the last RLP received from the base station controller 13 from the base station controller 13 from the message Check the data value (S32).

Here, the RLP is a protocol that heals the error after transmitting the data by adding a sequence number to the data in order to prevent a transmission error of packet data transmitted from the base stations 11 and 12 to the terminal 10. The value of the RLP data is the terminal 10 when the error occurs while transmitting data to the terminal 10 and the information on the serial number (RLP signaling sequence) added to the data transmitted from the base station (11,12) Contains information (RLP Nak) requesting retransmission of an error part.

In addition, when the base station 11, 12 transmits a message (StopServing) indicating that the service is stopped with the terminal 10 to the base station controller 13, the RLP data value is transmitted by the base station (11, 12) A predetermined parameter indicating this is added to the StopServing and transmitted to the base station controller 13.

Accordingly, the base station controller 13 compares the RLP data value last received by the old base station 11 confirmed in the step S32 with the RLP data value first received by the new base station 12 (S33). It is possible to know when the new base station 12 starts to receive data, and to check and retransmit the data in error.

That is, in the above, the base station controller 13 is based on the RLP data value last received by the existing base station 11, the data missing since the start time of the RLP data value initially received by the new base station 12 The two data values are compared in a manner of searching whether there is, and if there is data not transmitted to the new base station 12 as a result of the comparison, the corresponding data is transmitted to the new base station 12 (S34 and S35).

As a result of the comparison, if none of the data values transmitted to the new base station 12 is missing, the data is already transmitted to the terminal 100 normally, and thus no additional processing is performed.

Meanwhile, in step S31, a message (StopServing) indicating that the service is stopped with the terminal 10 from the existing base station 11 is not received, the service with the terminal 10 from the new base station 12. When a message (StopServing) indicating that the stop has been received (S36), the base station controller 13 stops data transmission to the new base station 12 and continues to transmit data to the existing base station 11 (S37).

As described above, according to the present invention, when a handoff operation of a terminal in a mobile communication system receives a message indicating that the terminal is ready for forward packet data transmission from the new base station, the terminal and the service from the existing base station in service are provided. Until receiving a message indicating that the operation has been stopped, data is transmitted to all base stations that maintain the link and then the untransmitted data is checked using the RLP data values transmitted to the existing base station and the new base station. By transmitting data to the existing base station or by continuously transmitting data to the existing base station, the base station controller in the system indicates that the new base station is ready for forward packet data transmission with the corresponding terminal, and forwards with the corresponding terminal from the existing base station. It is possible to prevent data loss due to a difference between time points at which a message indicating that packet data transmission is interrupted is prevented, thereby improving the data throughput of the terminal and the quality of packet data service.

1 is a block diagram showing the configuration of a mobile communication system during a handoff operation of a conventional terminal.

Figure 2 is a flow chart showing the operation of the handoff processing method in the mobile communication system of the present invention.

3 is a flowchart illustrating a process of transmitting data to a new base station and an existing base station using the RLP data value in the handoff processing method of the present invention.

*** Description of the symbols for the main parts of the drawings ***

10: terminal 11, 12: base station

13: base station controller

Claims (4)

In the handoff operation of a terminal, when a base station controller receives a message indicating that the base station is ready for forward packet data transmission from the new base station, until a message indicating that the terminal and the service is suspended from the existing base station in service, Transmitting data to all base stations that overlap and maintain the link; And transmitting the data to the new base station or continuously transmitting the data to the new base station by checking the untransmitted data by using the RLP data values transmitted to the existing base station and the new base station. Method of handling handoff in a communication system. The method of claim 1, wherein the transmitting of the data to the existing base station and the new base station using the RLP data value comprises: storing the first RLP data value transmitted from the base station controller to the new base station; Checking a last RLP data value received by the existing base station at a base station controller when receiving a message indicating that the service is suspended from the existing base station; Comparing the stored first RLP data value with the identified last RLP data value; Identifying untransmitted data according to the comparison result and transmitting the data to the new base station; If a message indicating that the terminal and the service is interrupted is not received from the existing base station, when receiving a message indicating that the terminal and the service is stopped from the new base station, the data transmission to the new base station is stopped and continue to the existing base station Handoff processing method comprising the step of transmitting data. The handoff processing method of claim 2, wherein the last RLP data value is transmitted to the base station controller by including a message indicating that the terminal and the service have been stopped by the existing base station. 3. The method of claim 2, wherein the comparing of the stored first RLP data value and the confirmed last RLP data value is performed by the new base station based on the last received RLP data value in the base station controller. A method for processing handoff in a mobile communication system, characterized by searching whether there is missing data after a start point of a received RLP data value.